Abstract
SUMMARYMacrophages are an essential part of tissue development and physiology. Perivascular macrophages have been described in tissues and appear to play a role in development and disease processes, although it remains unclear what are the key features of these cells. Here, we identify a subpopulation of perivascular macrophages in several organs, characterized by their dependence on the transcription factor c-MAF, displaying non-conventional macrophage markers including LYVE1, Folate receptor 2 and CD38. Conditional deletion of c-MAF in macrophage lineages caused ablation of perivascular macrophages in the brain and altered muscularis macrophages program in the intestine. In the white adipose tissue (WAT), c-MAF deficient perivascular macrophages displayed an altered gene expression profile, which was linked to an increased vascular branching into the tissue. Upon feeding on high fat diet (HFD), mice with c-MAF deficient macrophages showed improved metabolic parameters compared to wild-type mice, including less weight gain, greater glucose tolerance and reduced inflammatory cell profile in WAT. These results define c-MAF as a central regulator of perivascular macrophages cell identity and transcriptional program in vivo and reveal a novel role for this tissue resident macrophage population in the regulation of metabolic syndrome.
Publisher
Cold Spring Harbor Laboratory
Cited by
2 articles.
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